Amino Acid Analysis
... standard to independently monitor transfer of the sample onto the analyzer. The instrument is calibrated with a 2 nmol mixture of amino acids and it is operated via the manufacturer's programs and with the use of their buffers. Data analysis is carried out on an external computer using Perkin Elmer/ ...
... standard to independently monitor transfer of the sample onto the analyzer. The instrument is calibrated with a 2 nmol mixture of amino acids and it is operated via the manufacturer's programs and with the use of their buffers. Data analysis is carried out on an external computer using Perkin Elmer/ ...
Practice Questions
... • E)the thermodynamically favorable transfer of phosphate from glycolysis and the citric acid cycle intermediate molecules of ADP. ...
... • E)the thermodynamically favorable transfer of phosphate from glycolysis and the citric acid cycle intermediate molecules of ADP. ...
Classification of Enzymes - Lectures For UG-5
... “a” is the class, “b” is the subclass, “c” is the subsubclass, and “d” is the sub-sub-subclass. The “b” and “c” digits describe the reaction, while the “d” digit is used to distinguish between different enzymes of the same function based on the actual substrate in the reaction. • Example: for Alcoho ...
... “a” is the class, “b” is the subclass, “c” is the subsubclass, and “d” is the sub-sub-subclass. The “b” and “c” digits describe the reaction, while the “d” digit is used to distinguish between different enzymes of the same function based on the actual substrate in the reaction. • Example: for Alcoho ...
4 - Clark College
... • Describe what substrates enter and what products exit glycolysis, when oxygen is available to the cell. • Name the coenzyme of glycolysis and its role in metabolism. • Identify where in the cell the reactions of glycolysis occurs. Citric Acid Cycle and Oxidative Phosphorylation • Describe what sub ...
... • Describe what substrates enter and what products exit glycolysis, when oxygen is available to the cell. • Name the coenzyme of glycolysis and its role in metabolism. • Identify where in the cell the reactions of glycolysis occurs. Citric Acid Cycle and Oxidative Phosphorylation • Describe what sub ...
Slides - Websupport1
... As soon as glucose is inside the cell, a phosphate is added to carbon number 6, and the new molecule is called glucose 6 phosphate. This reaction is called phosphorylation and it requires one ATP, enzyme ...
... As soon as glucose is inside the cell, a phosphate is added to carbon number 6, and the new molecule is called glucose 6 phosphate. This reaction is called phosphorylation and it requires one ATP, enzyme ...
a. carbohydrates - Valhalla High School
... 4. Explain the differences between inorganic and organic compounds. 5. Understand that water is the most important inorganic compound for organisms. 6. State the functions of carbohydrates. 7. Understand that monosaccharides (i.e., glucose) is the building block for all carbohydrates. 8. Recognize t ...
... 4. Explain the differences between inorganic and organic compounds. 5. Understand that water is the most important inorganic compound for organisms. 6. State the functions of carbohydrates. 7. Understand that monosaccharides (i.e., glucose) is the building block for all carbohydrates. 8. Recognize t ...
Activated B Complex
... vital the B group vitamins are as cofactors for the function of this pathway. If the body is deficient in any of these integral nutrients due to poor supply, reduced absorption or increased demand, it is clear how energy production and well-being may be compromised. Thiamine serves as a cofactor for ...
... vital the B group vitamins are as cofactors for the function of this pathway. If the body is deficient in any of these integral nutrients due to poor supply, reduced absorption or increased demand, it is clear how energy production and well-being may be compromised. Thiamine serves as a cofactor for ...
GLUCOGENIC & KETOGENIC AMINO ACIDS
... production of pyruvate or TCA cycle intermediates, such as α-ketoglutarate , succinyl CoA, Fumarate and oxaloacetate, all of which are precursors to glucose via gluconeogenesis. All amino acids except lysine and leucine are at least ...
... production of pyruvate or TCA cycle intermediates, such as α-ketoglutarate , succinyl CoA, Fumarate and oxaloacetate, all of which are precursors to glucose via gluconeogenesis. All amino acids except lysine and leucine are at least ...
The Lipids
... 1. Know the terms eicosanoids, prostaglandins, leukotrienes, and thromboxanes. 2. Know the lipid from which prostaglandins, leukotrienes, and thromboxanes are produced. 3. State at least six known physiological effects of the eicosanoids. 4. Know how aspirin reduces pain. C. Identify the common stru ...
... 1. Know the terms eicosanoids, prostaglandins, leukotrienes, and thromboxanes. 2. Know the lipid from which prostaglandins, leukotrienes, and thromboxanes are produced. 3. State at least six known physiological effects of the eicosanoids. 4. Know how aspirin reduces pain. C. Identify the common stru ...
Bio 6B Lecture Slides - B
... 1. Each carbon atom forms four bonds. 2. Carbon atoms can bond to other carbons, thus constructing long and/or branched chains of carbon — the “carbon backbone” of the molecule. 3. Carbon can form double bonds to modify the shape or flexibility of the chains. Thus only carbon can form the complex mo ...
... 1. Each carbon atom forms four bonds. 2. Carbon atoms can bond to other carbons, thus constructing long and/or branched chains of carbon — the “carbon backbone” of the molecule. 3. Carbon can form double bonds to modify the shape or flexibility of the chains. Thus only carbon can form the complex mo ...
Name: Block: Date: Biology 12 - Biologically Important Molecules
... the smallest unit of matter that cannot normally be broken into smaller particles the process of breaking down large fat droplets into smaller fat droplets the loose association of amino acids in a polypeptide chain with each other, usually through H-bonds. e.g. alpha helix, beta pleated sheet the l ...
... the smallest unit of matter that cannot normally be broken into smaller particles the process of breaking down large fat droplets into smaller fat droplets the loose association of amino acids in a polypeptide chain with each other, usually through H-bonds. e.g. alpha helix, beta pleated sheet the l ...
The pH Scale
... Objective: Students will: (1) reflect on Quarter 1 grades and set goals for Quarter 2; (2)complete word sort to practice macromolecules; (3) explore pH by creating a foldable. Catalyst: ...
... Objective: Students will: (1) reflect on Quarter 1 grades and set goals for Quarter 2; (2)complete word sort to practice macromolecules; (3) explore pH by creating a foldable. Catalyst: ...
Ch. 2 Notes Organic Chemistry
... Have a large proportion of C-H bonds and very few O (ie) C57H110O6 ...
... Have a large proportion of C-H bonds and very few O (ie) C57H110O6 ...
PP133 Impact of free fatty acids binding to nsLTP on their tertiary
... study indicates that Pru p 3 displays some binding specificity as compared to Cor a 8 and Jug r 3. It prefers to bind unsaturated versus saturated fatty acids and short carbon chains ligands (C12 vs C18). Moreover, certain ligands can influence tertiary structure of protein. Interestingly, the regio ...
... study indicates that Pru p 3 displays some binding specificity as compared to Cor a 8 and Jug r 3. It prefers to bind unsaturated versus saturated fatty acids and short carbon chains ligands (C12 vs C18). Moreover, certain ligands can influence tertiary structure of protein. Interestingly, the regio ...
Energy Metabolism - Georgia Institute of Technology
... – Pyruvate import to mitocondria – ~15 more ATP per pyruvate ...
... – Pyruvate import to mitocondria – ~15 more ATP per pyruvate ...
No Slide Title
... NH3 and one oxygen from the carboxyl join to form a water. So the peptide bond has at the one side a C=O and at the other side an N-H. Only the ends of the chain are NH3 or carboxylic, and thus charged. Which dipeptide is this? Where are the charges? ...
... NH3 and one oxygen from the carboxyl join to form a water. So the peptide bond has at the one side a C=O and at the other side an N-H. Only the ends of the chain are NH3 or carboxylic, and thus charged. Which dipeptide is this? Where are the charges? ...
Final Key - UC Davis Plant Sciences
... glucose that can be used as a fuel by the other cells of the body. On the other hand, the skeletal muscles are specialized for energy production (ATP). Thus, if glycolysis is activated in the muscles (ATP production), gluconeogenesis will be activated in the liver to produce glucose for the muscles ...
... glucose that can be used as a fuel by the other cells of the body. On the other hand, the skeletal muscles are specialized for energy production (ATP). Thus, if glycolysis is activated in the muscles (ATP production), gluconeogenesis will be activated in the liver to produce glucose for the muscles ...
2004-05
... Describe the structural differences between a triacylglycerol and a phospholipid. Give one example in each case. What is the name of the fatty acid formed in the route from compound lipid to prostaglandins ? What similarities in composition are there in the four DNA nucleotides ? ...
... Describe the structural differences between a triacylglycerol and a phospholipid. Give one example in each case. What is the name of the fatty acid formed in the route from compound lipid to prostaglandins ? What similarities in composition are there in the four DNA nucleotides ? ...
Lipids
... omega-9 fatty acid. Linoleic acid has double bonds at carbon-6 and carbon-9 but is an omega-6 fatty acid, because the first double bond occurs at carbon 6. Omega-3 fatty acids such as alpha-linolenic acid have a double bond at carbon 3, plus two or more double bonds. Sources of Omega-3 Fatty Acid Ge ...
... omega-9 fatty acid. Linoleic acid has double bonds at carbon-6 and carbon-9 but is an omega-6 fatty acid, because the first double bond occurs at carbon 6. Omega-3 fatty acids such as alpha-linolenic acid have a double bond at carbon 3, plus two or more double bonds. Sources of Omega-3 Fatty Acid Ge ...
Chem 371-001 - Loyola University Chicago
... exam will receive an automatic “0” for the examination and that 0 cannot be dropped! The name of the cheating students will be brought to the attention of the Chair of the Department and the Dean of the College, who will decide if further disciplinary action is necessary. Students should realize tha ...
... exam will receive an automatic “0” for the examination and that 0 cannot be dropped! The name of the cheating students will be brought to the attention of the Chair of the Department and the Dean of the College, who will decide if further disciplinary action is necessary. Students should realize tha ...
Glycolysis in the Cytoplasm
... 1. Glycolysis I - Energy Investment Phase ATP is used to split the 6-carbon molecule into two 3-carbon molecules 2. Glycolysis II - Energy Payoff Phase 2 ATP are produced and 2 molecules of the electron carrier NADH + H+ along with 2 molecules of pyruvate Pyruvate is an important branch point in met ...
... 1. Glycolysis I - Energy Investment Phase ATP is used to split the 6-carbon molecule into two 3-carbon molecules 2. Glycolysis II - Energy Payoff Phase 2 ATP are produced and 2 molecules of the electron carrier NADH + H+ along with 2 molecules of pyruvate Pyruvate is an important branch point in met ...
Topic Three Chemistry of Life - MrsGorukhomework
... just like petroleum and can store a lot of energy – and not soluble in water When fats are metabolized for energy, it releases a lot more water than if you use glucose. Desert camels can live off that water when they use the fat in their hump. *condensation and hydrolysis equations with words or for ...
... just like petroleum and can store a lot of energy – and not soluble in water When fats are metabolized for energy, it releases a lot more water than if you use glucose. Desert camels can live off that water when they use the fat in their hump. *condensation and hydrolysis equations with words or for ...
Fatty acid synthesis
Fatty acid synthesis is the creation of fatty acids from acetyl-CoA and malonyl-CoA precursors through action of enzymes called fatty acid synthases. It is an important part of the lipogenesis process, which – together with glycolysis – functions to create fats from blood sugar in living organisms.